Post on 14-Aug-2020
The NEOWISE TeamPresented by James “Gerbs” Bauer, Deputy PI
January 27, 2016
Small Bodies Assessment Group Meeting #14NEOWISE Reactivation Update
NEOWISE Reactivation Overview• Science objectives:
–Survey Near-Earth Objects (NEOs) at mid-infrared wavelengths using WISE channels W1 and W2
–Obtain physical characterization (including diameters and albedos) of these objects
• Science team members: – JPL: Amy Mainzer, PI; James Bauer, Deputy PI; Joe
Masiero; Emily Kramer and Sarah Sonnett (postdocs) – IPAC: Roc Cutri, Carrie Nugent– PSI: Tommy Grav– UCLA: Ned Wright
• Project Mgr: Beth Fabinsky
• JPL roles: - Div. 32 (PI, Science Team)- Div. 31/34/39 (Operations)- 7X: Management- 8X: ESMC operations facility
• Partners:- IPAC Science data processing - BATC S/C ops support - SDL payload ops support - UCLA survey design- ATK operations support- Alethium GDS support
• Reactivation of NEOWISE mission following hibernation of WISE S/C in February 2011
• 3.4 and 4.6 µm bands (W1 and W2)• ~75K post-cryo operation • Low-Earth orbit with downlink through
TDRSS• Similar mission plan, observing strategy as
WISE/NEOWISE• 3-year Survey
2010 GH7
NEOWISE Reactivation Year 1 Data Release 3/26, 2015
3
• MBAs• NEAs• Comets
• The reactivated NEOWISE has made infrared detections of 18159solar system objects as of 1/22/16, including 467 NEOs of which 78 are new discoveries
• Recent discoveries include:– Two comets within a single day,– First Three NEO discoveries of 2016 are PHAs, – An Aten asteroid (2015 XY278) that crosses the orbits of the Earth, Venus and
Mercury
• 301 deliveries to the MPC, including 40188 Tracklets
Science Progress to Date
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Diameters & Albedos Unchanged by Hibernation
Diameters and albedos using W1 and W2 are consistent with values from original NEOWISE mission
1st year follow-up, Nugent et al. 2015, ApJ 814, 177
NEOWISE Synergies with Other Projects
NEOWISE data: • enable better predictions for radar target
prioritization
• allow diameters and albedos to be computed for objects discovered by other surveys
• support pre-covery of NEO candidates using IRSA services
2014 HQ124• Discovered by NEOWISE 4/23/14• Goldstone-Arecibo Obs. 6/8/14• NEOWISE diam. 330+/-80m,
Goldstone/Aricebo diam. 370m
Comet Observing Campaigns
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67P/Churyumov-Gerasimenko, Dec. 21, 2015
C/2013 A1, Siding Spring, July 18, 2014
NEOWISE Supports coordinated campaigns:• Comet C/2013 A1 Siding
Spring observations• C/2013 US10 Catalina• Recent jointly coordinated
observation campaign of 67P with the Rosetta mission MIRO instrument Team.
NEOWISE Depends on NEOO Program Observatories for Follow-up
Extremely grateful for the follow-up effort of the community!!
YR1 + YR2 Follow-upNugent et al. 2016 (in prep.)
Peer-Reviewed Publications
• Total citation count using NEOWISE data & discoveries: >200 refereed publications– Total citation count for WISE/NEOWISE >1500 refereed
publications
• NEOWISE is a time-domain mid-infrared all-sky survey, so its science spans a wide range of topics
Recent Science Highlights
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Diameters & Albedos from Reactivation Year 1
• Nugent et al. (2015 ApJ): Diameters & albedos for 7956 asteroids detected in Yr1
• Diameters accurate to ~20%, albedos to ~40%
• NEOWISE preferentially detects large NEOs
• NEO discoveries tend to be dark• Nearly a quarter are PHAs
• Euphrosyne family mimics extinct JFCs in NEA populations• Jupiter Tisserand parameter < 3 and albedos of a few percent• Euphrosyne family populates an otherwise rare region of NEO
space, allowing for direct links from NEO to formation 12
Euphrosyne Family Study
Masiero et al. 2015 (ApJ)
Grav et al. 2015 (ApJ): Jovian Irregular Satellite populations darker than Jupiter Trojans or Hildas, and are a better match with cometary populations.
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Irregular Satellites
• Close & contact binaries can sometimes be identified by their large brightness variations
• We identified 77 Trojan and Hilda asteroids w/ large NEOWISE brightness variations: • binary candidates.
• 29 new binary candidates out of 953 Trojans (13-150 km) estimated fraction of 14-25%
• 48 new binary candidates out of 554 Hildas (4-36 km) estimated fraction of 30-51%
Binary Asteroids Candidates Identified by Large Amplitude Lightcurves
Sonnett et al. (2015)
• Candidates are in need of follow-up to confirm binarity (follow-up underway)
Dust tails in the NEOWISE data
o Kramer et al ApJ (2016, submitted): Dynamical models are used to constrain the size and age of the particles, with the best models selected using a novel analytical tail fitting method.
Example of WISE data dust tail analysis: Kramer et al. 2014 (based on PhD thesis work)
C/2008 N1
The NEOWISE CO+CO2 Survey
• Completed largest survey of CO+CO2 to date
• LPCs and SPCs behave the same closer to Sun, but larger fraction of LPCs produce more CO+CO2 further from Sun
• LPCs maintain more of their lighter volatiles
• Differences in CO+CO2 reflect thermal history
CO
+CO
2-to
-Dus
t Pro
duct
ion
Rat
io (l
og u
nits
)
Distance from the Sun (Relative to Earth-Sun Distance)
Comet Dust Temperature (approximate)
286K 165K 128K 108K 95K
Water + CO2 Driven Ac vity
CO+CO2 Driven Ac vity
Know
n Co
mets
NEO
WISE Discoverie
s
SPCs
LPCs
Bauer et al. 2015, The Astrophysical Journal
NEOWISE’s View of C/2006 W3 Christensen
4 arcmin = 700,000 km
4.6 µm; CO+CO2 3.4, 12, & 22 µm; Dust
‐V
Extinct comet candidates
• Licandro et al (2015, Astron. and Astrop.) Size and albedo distributions of Asteroids in Cometary Orbits using WISE data
Found that Tancredi-
selected extinct comet
candidates better-
matched Centaur &
JFC size distributions.
NEOWISE 2016 Data ReleaseScheduled for March 2016
• Single-exposure data from the second year of the NEOWISE Reactivation Mission
• Two complete sky coverages, bringing total to four coverages since start of Reactivation
• Data access:– Image and source database from the NASA/IPAC Infrared Science
Archive (IRSA) http://irsa.ipac.caltech.edu/wise – Moving Object tracklets from the IAU Minor Planet Center
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C/2013 US10 (Catalina), Aug. 2015
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Year 2 NEOWISE Data Combined with Year 1 Data In Single Archive
Year 1 Year 2 Total
Single-exposure Images(image sets) 2,497,867 2,557,865 5,055,732
Single-exposure Source Database (detections) 18,468,575,596 19,691,230,571 38,159,806,157
Moving Object Tracklets(detections/objects)
136,63510,200
162,73611,786
299,371 17,240
Known Solar System ObjectPossible Assoc. List(entries/objects)
14,383,217563,059
15,626,395614,606
30,008,612640,236
We are excited to see what will be done with this data release!
Thank You!!